DE856396C - Bearing friction reducing storage (suspension or support) of pendulums or the levers of scales, apparatus and measuring devices - Google Patents

Description

(WiGBl. P. 175)

ISSUED NOVEMBER 20, 1952

• S ^Χ 5 ⁶ 57 IX ^ 147 *

(Ges. V. July 15, 51)

As is well known, friction often becomes noticeable in all types of bearings when there is a greater weight load on the bearing. When using sensitive cutting edge bearings or top bearings, such as B. in scales, seismographs and other measuring devices, then also make other undesirable phenomena also noticeable. This includes the wear and tear of the cutting edge or tip, the undesirable tensions in the storage system, the unclean support with high support pressure. Just With the most common steel and agate cutting edges and points, these inconveniences easily occur. So are purely structural peculiarities of many devices due to the imperfect properties of the storage codetermination, and a more advantageous construction must often be discarded because it is the bearing no longer give away or are subject to excessive wear and tear.

According to a known proposal, these difficulties can be eliminated in that the Contact pressure that the supported body exerts on the bearing with the help of a magnetic field, which acts on this body is reduced. So, according to a known suggestion at a suitable point a magnet is attached outside the supported body or system, which has the task of by virtue of its force of attraction to relieve the supported system, whereby a reduction in the bearing

pressure and therefore bearing friction and wear is achieved. Those parts of the stored Body, which should be subject to the desired action of the magnetic field, are expedient made of easily magnetizable material such as iron or nickel.

It has been shown that actually under the action of such a magnetic field the bearing is much less worn and stressed. This ίο and the possibility of the pendulum mass without consideration to be able to enlarge the camp, are z. B. also for scales and for gravity measurements common pendulum devices, seismographs and other measuring devices of great advantage. The invention now goes one step further in the relief by supporting the bearing which reduces friction (Suspension or support) of pendulums or the levers of scales, apparatus and measuring devices proposes to produce the lever to be stored od and by means of a magnetic field in the sense of a reduction in the contact pressure to raise the effect of gravity, in contrast to the well-known proposal so far that the floating lever or the like lifted from its rest bearing against a new upper one Support and pivot point is pressed.

An embodiment of a known discharge system illustrated Fig. 1. A pendulum body K ₁ rests by means of an agate blade S ₁ on the cutting pad P _1. The mass or the weight of the body K ₁ is limited by the properties of the cutting edge bearing. Due to the oscillating movement of the pendulum, the cutting edge is subjected to a very high level of stress, which is noticeable in the relatively rapid wear of the bearing. This stress on the bearing is reduced in the present example with the aid of the relief magnet M _1. The magnet is attached above the supported body and, by virtue of its force of attraction on the iron support E , will, so to speak, lift the pendulum body somewhat and thus relieve the cutting edge. The pendulum mass itself can be increased if the magnet is reinforced accordingly.

According to the invention, the strengthening of the magnetic field effect can be taken so far that a storage in the normal sense is no longer possible, because the stored body, the attraction of the Following magnets, would be lifted completely from the bearing. In such a case a new support point for the vibrating body is created, like this one Fig. 2 can be seen.

In Fig. 2, K ₂ also represents a pendulum body. The fulcrum of the steel cutter S ₂ lies in the same plane as the fulcrum of the cutter S ₁ in Fig. 1. The magnet M ₂ exerts a sufficiently strong pull on the steel cutter S ₂ , in order to hold the entire pendulum body on the cutting edge pad P ₂ , but a relatively small additional load on the pendulum body should be sufficient to detach it from the magnet and therefore also from the P. According to the invention, this additional load corresponds to the artificial contact pressure of the cutting edge S ₂ on the base P ₂ , which is many times less than the natural contact pressure of the pendulum caused by gravity. The advantages that a largely relieved bearing of this design brings with it are also clearly evident.

According to the invention it is irrelevant whether the magnetic field from an electromagnet, from a suitable one permanent magnets or in some other way. It can also under certain circumstances be advantageous to be able to strengthen or weaken the magnetic field. It doesn't matter whether cutting, Shafts, pins, points or other bearings are used; in any case, the bearing friction by following the proposals of the invention in a simple and effective manner will.

Claims (3)

PATENT CLAIMS: 1. Friction-reducing mounting (suspension or support) of pendulums or levers of scales, apparatus and measuring devices, characterized in that the lever to be stored is completely or partially consists of magnetically influenceable material, and by means of a magnetic field in the In the sense of a reduction in the contact pressure is raised against the effect of gravity, so far that the floating lever lifted from its rest bearing against a new one upper support and pivot point is pressed. 2. Lever mounting according to claim 1, characterized in that that the stored lever is only due to the effect of the magnetic field on the new one Support point is held. 3. Lever mounting according to claim 1 or 2, characterized in that the magnetic field effect is adjustable. 1 sheet of drawings © 5498 11.